SU420046A1 - METHOD OF AUTOMATIC REGULATION OF THE QUANTITY AND SIGN OF JET POWER IN POWER SYSTEMS - Google Patents

Description

According to the main author. St. N ° 353314 is known for automatically adjusting the magnitude and reactive power in power systems by acting on a frequency converter with direct communication, artificial switching and cyclic connection of high-frequency reactor phases and the supply network phase, according to which the deviation of the network from the nominal and at the voltage in the network below the nominal one selects the frequency of control pulses equal to the sum of the frequency of the network and the main rapMOHHfKH current in the reactor. These are the differences between the indicated frequencies, and the frequency of the control pulses is inversely proportional to the magnitude of the voltage deviation.

The well-known method allows one to equalize the voltage symmetry of the mains voltage, which often takes place in practice, such as the conductivity of controlled transformer valves connecting the reactor to the linear over: 1M voltage, is identical for all three phases (60 °).

According to the proposed cno.coi6y, the deviations of each of the linear network loads from the nominal one are measured to equalize the unbalances in the network, and the connection time of the phases of the reactor to each of the normal loads is changed depending on the measured deviations.

FIG. 1 represented simplified 1a power circuit of one phase of a valve source

reactive power (IRM), loaded on the reactor of high frequency; in fig. 2 is a diagram of control pulses arriving at the gates of the power circuit of the IRM; in fig. 3 is a diagram of the output of three pairs of power valves; in fig. 4 is a block diagram of a device that implements the proposed method.

Each pair of consecutive B1 switchable power valves 1-6 nodkl ochatsya 7

to linear 1Nr 1: NNM segd on fi zirovandoe time-m (Fig. 1). In the case of an ésilmetrical control diagram of 1H, according to the proposed procedure (Fig. 3), the phase load will be distributed unequally to epdo; large current

will proceed in those phases that are connected to the reactor for a longer duration of the first segment of time.

On . 2 and 3. T, and the connection of one phase of the reactor to the voltage AV and time 80 el. grad., to SA-10 e. degrees, to BC- 60 el. hail.

The total time of the nanowire's three shots of successively connected single-phase gates of a single phase IRM should not exceed 180 e.

hail. If it is less than 180 e. hail,

then this means that for some time the reactor is disconnected from the network. In order to eliminate overvoltages in such cases, it is necessary to shunt the reactor by means of valves that are located in any arm of the power circuit (Apr. 1-6).

If the deviation of each of the following measures is measured: 3 linear ses tension from the nominal and received signal of the impact: st.vt: put on the duration of the conductive CONDITION of each pair of valves that connect the peaiKTop to the given lilac voltage regimentation with the reactivity of the power of the IWW.

FIG. 4 shows a block-cxeiMa set | ROY1STVA that implements this regulation, where indicated:

8 - IRM control unit, generating pulses with a duration of 60 e. hail.

9, 10, And the pulse-width control formers that are supplied directly to the valves connecting the reactor are appropriate, but the line voltages are VS, CA and AB.

12 - power circuit of one phase of the IRM.

13, 14, 15 - sensors of the deviation of the linear voltage of the network from the nominal value.

If the deviations of the linear stresses are within acceptable limits, the signals

at the output of the sensors 13, 14, 15 are absent, the duration of the equilibrium pulses at the output of the formers 9, 10, 11 does not change and remains equal to 60 e. hail. This IRM

operates in the mode of tenering (or consuming) reactive power with uniform loading of the network phases.

If the magnitude of one (or several) linear voltages is outside the established limits, then the output of the sensors 13, 14, 15 will receive signals, depending on the magnitude of which they change with the power of the formers 9, 10, 11 entering the silo scheme 12.

Therefore, the diagram of conductivity acquires an asymmetrical form (Fig. 3).

Subject invention

The method of automatic control of the magnitude and sign of reactive power in power systems but aut. St. JV2 353314, characterized in that, in order to align the asymmetry of the network, the deviations of the linear network are measured from the network and, depending on the measured deviations, the time of connecting the peaiKTopa phases to each of the external voltages varies.

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FIG A